EP2059064A1 - Videokonferenzsystem - Google Patents

Videokonferenzsystem Download PDF

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Publication number
EP2059064A1
EP2059064A1 EP07791752A EP07791752A EP2059064A1 EP 2059064 A1 EP2059064 A1 EP 2059064A1 EP 07791752 A EP07791752 A EP 07791752A EP 07791752 A EP07791752 A EP 07791752A EP 2059064 A1 EP2059064 A1 EP 2059064A1
Authority
EP
European Patent Office
Prior art keywords
voice
collecting
voice collecting
signal
emitting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP07791752A
Other languages
English (en)
French (fr)
Inventor
Takuya Tamaru
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yamaha Corp
Original Assignee
Yamaha Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Yamaha Corp filed Critical Yamaha Corp
Publication of EP2059064A1 publication Critical patent/EP2059064A1/de
Withdrawn legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R3/00Circuits for transducers, loudspeakers or microphones
    • H04R3/005Circuits for transducers, loudspeakers or microphones for combining the signals of two or more microphones
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/60Substation equipment, e.g. for use by subscribers including speech amplifiers
    • H04M1/6033Substation equipment, e.g. for use by subscribers including speech amplifiers for providing handsfree use or a loudspeaker mode in telephone sets
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M3/00Automatic or semi-automatic exchanges
    • H04M3/42Systems providing special services or facilities to subscribers
    • H04M3/56Arrangements for connecting several subscribers to a common circuit, i.e. affording conference facilities
    • H04M3/568Arrangements for connecting several subscribers to a common circuit, i.e. affording conference facilities audio processing specific to telephonic conferencing, e.g. spatial distribution, mixing of participants
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M2250/00Details of telephonic subscriber devices
    • H04M2250/62Details of telephonic subscriber devices user interface aspects of conference calls
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M3/00Automatic or semi-automatic exchanges
    • H04M3/42Systems providing special services or facilities to subscribers
    • H04M3/56Arrangements for connecting several subscribers to a common circuit, i.e. affording conference facilities
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R2430/00Signal processing covered by H04R, not provided for in its groups
    • H04R2430/20Processing of the output signals of the acoustic transducers of an array for obtaining a desired directivity characteristic

Definitions

  • the present invention relates to a for holding a talk session by connecting two voice conference devices that are located in remote positions mutually.
  • Patent Literature 1 or Patent Literature 2 when conferees will hold a talk session between two locations that are remote mutually, the voice conference device set forth in Patent Literature 1 or Patent Literature 2 is arranged in respective locations, and then the conferees are seated around this voice conference device to hold the session.
  • one speaker is arranged at a center of the case to emit a voice from a ceiling to the outside, and also a plurality of microphones whose voice collecting direction is set in a different direction respectively are arranged at respective corner portions of side surfaces.
  • the conferees are seated in the same session room, in some cases they would like to talk to a different person respectively and also they would like to discuss the different subject respectively. That is, often the conferees would like to discuss a plurality of subjects in parallel.
  • the voices are emitted from one speaker to all conferees (omnidirectionally), and therefore the conferees cannot discuss individually a plurality of subjects in parallel.
  • the present invention relates to a voice conference system that is equipped with a plurality of voice conference devices connected mutually via connecting portions, and each of a plurality of voice conference devices includes a circular plate-like case, a plurality of unidirectional microphones arranged on a circumference of the case, and a plurality of speakers arranged on a circumference of the case.
  • Each of two voice conference devices of the voice conference system of the present invention includes a voice collecting portion, a communication controlling portion, and a voice emitting portion, which are described in the following.
  • the voice collecting portion of the present invention forms voice collecting beam signals from voice collecting signals picked up by the plurality of unidirectional microphones in plural different voice collecting directions respectively, selects the voice collecting beam signal based on the voice emitted from a conferee from the formed voice collecting beam signals, and detects voice collecting direction information corresponding to the selected voice collecting beam signal.
  • the communication controlling portion of the present invention produces voice communication data having the voice collecting beam signal selected by the voice collecting portion and the voice collecting direction information detected by the voice collecting portion then transmits the data to a voice conference device on the opposite side, acquires the voice collecting direction information and the voice collecting beam signal contained in the voice communication data received from the voice conference device on the opposite side, and gives a voice-emitting voice signal produced from the acquired voice collecting beam signal and the voice collecting direction information to a voice emitting portion;
  • the voice emitting portion of the present invention produces voice emitting signals that are supplied to the plurality of speakers, based on the voice-emitting voice signal received from the communication controlling portion and the voice collecting direction information sent from the destination voice conference device.
  • the voice conference device is shaped like the circular plate, and therefore the conferees are seated to surround the voice conference device.
  • Respective microphones are a unidirectional microphone respectively, and are arranged around a circumference. Therefore, even though the voice arrives from any direction out of all directions of the circular voice conference device, the microphone having the directivity in the direction along which that voice arrives is always present, and thus the voice that is in excess of a predetermined level is picked up by the corresponding microphone.
  • the corresponding microphone is not limited to a single microphone, and plural neighboring microphones may be used as the corresponding microphone.
  • the voice collecting portion forms the voice collecting beam signals whose center direction of the directivity is set to a different direction respectively from the voice collecting signals of a plurality of microphones, and detects signal levels of respective voice collecting beam signals. Then, the signal level of the voice collecting beam signal corresponding to the arriving direction of the voice becomes high. Therefore, the voice collecting portion selects the voice collecting beam signal whose signal level is in excess of a predetermined threshold value, and outputs this signal to the communication controlling portion. Also, the vice collecting portion detects the direction of the directivity of the selected voice collecting beam signal as voice collecting direction information, and outputs this information together with the voice collecting beam signal to the communication controlling portion. At this time, the voice collecting beam signal and the voice collecting direction information may be selected in plural if the signal level exceeds a threshold value.
  • the communication controlling portion produces the voice communication data having the voice collecting beam signal and the voice collecting direction information, and transmits the data to the voice conference device on the opposite side. Accordingly, the voice collecting beam signal formed of the voice emitted from the talker (conferee) and the voice collecting direction information indicating the direction of the talker of the voice conference device are transmitted to the voice conference device on the opposite side.
  • the communication controlling portion when the communication controlling portion receives the voice communication data containing the voice collecting beam signal and the voice collecting direction information from the voice conference device on the opposite side, such communication controlling portion gives the voice- emitting voice signal and the voice collection direction information based on the voice collecting beam signal to the voice emitting portion.
  • the voice emitting portion sets the emitted voice signal to respective speakers based on the voice collection direction information and the voice-emitting voice signal such that the conferee who is seated can hear the voice emitted from the corresponding conferee (the talker) from the concerned direction.
  • Respective speakers convert the supplied voice emitting signals into the voices, and emit the voice mainly in the front direction of the talker. Accordingly, the direction along which the voice is emitted is changed in response to the position of the conferee.
  • the conferees who attend the voice conference devices respectively are seated to face to respective speakers
  • the conferees who are seated to face to the corresponding speakers mutually can hold the talk session respectively, based on such a function that the voice emitting direction (the direction of the talker) can be discriminated.
  • the voice conference device is shaped like the circular plate, the voices emitted from respective speakers are hard to interfere with each other. Therefore, even when the conferees are holding the talk session about the different subjects respectively, each conferee is ready to hear the target voice only.
  • the voice collecting portion of the voice conference system of the present invention includes a regression voice removing portion for producing a quasi regression voice signal based on the selected voice collecting beam signal and the received voice-emitting voice signal, and then subtracting the quasi regression voice signal from the selected voice collecting beam signal.
  • the go-around voice component based on the voice-emitting voice signal contained in the voice collecting beam signal is removed. Therefore, the voice collecting beam signal with a high S/N ratio can be obtained, and can be transmitted to the voice conference device on the opposite side.
  • the present invention relates to a voice conference system that is equipped with a plurality of voice conference devices connected mutually via connecting portions, and each of a plurality of voice conference devices includes a circular plate-like case, a plurality of unidirectional microphones arranged on a circumference of the case, and a plurality of speakers arranged on the circumference of the case.
  • Each of a plurality of voice conference devices of the voice conference system of the present invention includes a voice collecting portion, and a communication controlling portion, which are described in the following.
  • the voice collecting portion of the present invention forms voice collecting beam signals from voice collecting signals picked up by the plurality of unidirectional microphones in plural different voice collecting directions respectively, selects the voice collecting beam signal based on the voice emitted from a conferee from the formed voice collecting beam signals, and detects voice collecting direction information corresponding to the selected voice collecting beam signal.
  • the communication controlling portion of the present invention converts the voice collecting beam signal selected by the voice collecting portion into a voice emitting signal for a destination voice conference device based on the detected voice collecting direction information and then transmits the voice emitting signal, and gives the voice emitting signal received from the destination voice conference device to a plurality of speakers.
  • the voice collecting portion forms the voice collecting beam signals whose center direction of the directivity is set to a different direction respectively from the voice collecting signals of a plurality of microphones, and detects signal levels of respective voice collecting beam signals. Then, the signal level of the voice collecting beam signal corresponding to the arriving direction of the voice becomes high. Therefore, the voice collecting portion selects the voice collecting beam signal whose signal level is in excess of a predetermined threshold value, and outputs this signal to the communication controlling portion. Also, the vice collecting portion detects the direction of the directivity of the selected voice collecting beam signal as voice collecting direction information, and outputs this information as well as the voice collecting beam signal to the communication controlling portion. At this time, the voice collecting beam signal and the voice collecting direction information may be selected in plural if the signal level exceeds a threshold value.
  • the communication controlling portion produces the voice emitting signals, which are supplied to respective speakers of the destination voice conference devices, based on the voice collecting beam signal and the voice collecting direction information, and transmits the signals via different signal lines to the destination voice conference devices respectively. Also, when the communication controlling portion receives the voice emitting signals from the destination voice conference devices, such communication controlling portion gives the signals to the corresponding speakers as they are. Then, respective speakers emit the supplied voices based on the voice emitting signals. With such configuration, the voices can be emitted in response to the voice collecting positions unless the voice collecting direction information are transmitted/received.
  • the voice collecting portion of the voice conference system of the present invention includes a regression voice removing portion for producing a quasi regression voice signal based on the selected voice collecting beam signal and the received voice emitting signal, and then subtracting the quasi regression voice signal from the selected voice collecting beam signal.
  • the go-around voice component based on the voice-emitting voice signal contained in the voice collecting beam signal is removed. Therefore, the voice collecting beam signal with a high S/N ratio can be obtained, and then the voice collecting beam signal with a high S/N ratio can be transmitted to the destination voice conference devices.
  • the voice conference system that provides excellent easy of use can be accomplished.
  • the voice conference devices 1A, 1 B are constructed according to the same specification and have a circular plate-like case 11 respectively.
  • the case 11 is shaped such that a shape when viewed from the top is circular, respective areas of a top surface and an bottom surface are narrower than an area of a portion located in the middle of the vertical direction, and a shape when viewed from the side is narrowed toward the top surface from one point in the height direction and is also narrowed toward the bottom surface from this one point. That is, the case 11 is shaped to have an inclined surface from this one point toward the upper side and the lower side respectively.
  • a hollow portion 12 that is narrower in area than the top surface and has a predetermined depth is formed in the top surface of the case 11.
  • the hollow portion 12 is set such that a center of this hollow portion 12 when viewed from the top coincides with a center of the top surface.
  • 16 microphones MC1 to MC16 are provided in the inside of the case 11 on the top surface side along the side surface of the hollow portion 12.
  • the microphones MC1 to MC16 are aligned at an equally angled pitch (in this case, about 22.5 ° interval) around a center of the voice conference device 1, when viewed from the top, as a center of rotation.
  • the microphones MC1 to MC16 are the unidirectional microphone respectively, and are arranged to have the sharp directivity toward the center of the case 11, when viewed from the top, respectively.
  • the number of the microphones is not limited to this example, and the microphones may be provided appropriately according to the specification.
  • speakers SP1 to SP4 are provided respectively such that the inclined surface of the case 11 on the lower side coincides with a voice emitting plane. Respective speakers SP1 to SP4 are aligned at an equally angled pitch (in this case, about 90 ° interval) around a center of the voice conference device 1, when viewed from the top, as a center of rotation.
  • the speakers SP1 to SP4 have the sharp directivity in the front direction of the voice emitting plane respectively.
  • An operating portion 13 is provided on the inclined surface of the case 11 on the upper side. Although not shown, the operating portion 13 is equipped with various operation buttons and a liquid crystal display panel.
  • the input/output I/F 14 is provided on the inclined surface of the case 11 on the lower side in a position where the speakers SP1 to SP4 are not provided. Although not shown, the input/output I/F 14 is equipped with a network connect terminal, digital audio terminals, analog audio terminals, and the like.
  • the voice conference device is connected to the foregoing network 900 by connecting a network cable to the network connect terminal.
  • the voice conference device 1 has a functional configuration as shown in FIG.3 as well as the above structural configuration.
  • a controlling portion 20 executes the overall control such as setting, voice collection, voice emission, etc. of the voice conference device 1. Also, the controlling portion 20 applies the control to respective portions of the voice conference device 1 based on the contents if the operating instruction being input by the operating portion 13.
  • the foregoing microphones MC1 to MC16 pick up the voices such as the voices emitted from the conferees, etc. from the outside, and produce voice collecting signals MS1 to MS16 respectively.
  • voice collecting AMPs (amplifiers) 25 amplify the corresponding voice collecting signals MS1 to MS16 at a predetermined amplification factor respectively.
  • A/D converters 26 apply an analog-digital conversion to the amplified voice collecting signals MS1 to MS16 respectively, and output converted signals to a voice collecting beam generating portion 27.
  • the voice collecting beam generating portion 27 sets adequate combinations of the voice collecting signals MS1 to MS16 (digital data), and applies delaying/adding processes, etc. to the combined voice collecting signals mutually.
  • the voice collecting beam generating portion 27 produces voice collecting beam signals MB1 to MB8 whose voice collecting directions are set to eight different directions respectively.
  • the voice collecting beam signals MB1 to MB8 center directions of the directivities of which are shifted at an interval of 45 ° in sequence can be produced.
  • the voices coming from all directions of the voice conference device 1 can be picked up by any one of the voice collecting beam signals MB1 to MB8 being set at an equal interval.
  • the number of the produced voice collecting signals is not limited to this example, and the voice collecting signals may be provided appropriately according to the specification.
  • a voice collecting beam selecting portion 28 detects signal levels of the voice collecting beam signals MB1 to MB8, and selects the voice collecting beam signal whose signal is in excess of a predetermined threshold value. In this case, the voice collecting beam selecting portion 28 only selects the voice collecting beam signal that is more than a predetermined threshold value. In the following, the case where four voice collecting beam signals exceed a predetermined threshold value will be explained hereunder. Chosen voice collecting beam signals (selected voice collecting beam signals) MBS1 to MBS4 are input into an echo canceling portion 29. Also, the voice collecting beam selecting portion 28 detects the directions corresponding to the voice collecting beam signals MBS1 to MBS4, and gives the directions to a communication controlling portion 21 as voice collecting direction information.
  • the echo canceling portion 29 has echo canceling circuits for every input selected voice collecting beam signals MBS1 to MBS4.
  • the echo canceling circuit is constructed by an adaptive filter for producing a pseudo regression voice signal based upon voice- emitting voice signals S1 to S4 from the input selected voice collecting beam signals, and a post processor for subtracting the pseudo regression voice signal from the selected voice collecting beam signal.
  • the echo canceling circuit subtracts the pseudo regression voice signal from the selected voice collecting beam signals while optimizing sequentially filter coefficients of the adaptive filter, and thus removes components that go around from the speakers SP1 to SP4 to the microphones MC1 to MC16 and are contained in the selected voice collecting beam signals.
  • the selected voice collecting beam signals MBS1 to MBS4 from which the go-around component is removed respectively are output to the communication controlling portion 21.
  • the communication controlling portion 21 produces voice communication data by correlating the selected voice collecting beam signals MBS1 to MBS4, from which the pseudo regression voice signal has been removed by echo canceling portion 29, with the voice collecting direction information from the voice collecting beam selecting portion 28, and outputs the data to the input/output I/F 14.
  • the voice communication data has such a data structure that voice data based upon the selected voice collecting beam signals MBS1 to MBS4 are inserted sequentially every unit of a predetermined time, which is divided in time series, respectively. Then, the voice collecting direction information is attached to the voice data in each time unit in the form of a header, or the like.
  • the voice communication data constructed in this manner is sent out to the destination voice conference device via the input/output I/F 14 and the network 900.
  • the communication controlling portion 21 acquires the voice data from the voice communication data received from the destination voice conference device via the input/output I/F 14, and outputs the voice data as voice-emitting voice signals. Also, the communication controlling portion 21 extracts the voice collecting direction information being correlated with the voice data of the voice communication data in the destination voice conference device, and gives the information to a voice-emission controlling portion 22. The communication controlling portion 21 discriminates the voice-emitting voice signals based on the voice collecting direction information every voice collecting direction (talker direction), and outputs the result. For example, as shown in FIG.3 , when the voice-emitting voice signals are four types, the voice collecting direction information are also four types, the voice communication data are discriminated into voice-emitting voice signals S1 to S4 and are output.
  • the voice-emitting voice signals S1 to S4 output from the communication controlling portion 21 is supplied to the voice-emission controlling portion 22 via the echo canceling portion 29.
  • the voice-emitting voice signals S1 to S4 input into the echo canceling portion 29 are used in the above-mentioned echo canceling process.
  • the voice-emission controlling portion 22 makes a mixing of the voice-emitting voice signals S1 to S4 at predetermined signal levels based on the voice-emitting voice signals S1 to S4 and the related voice collecting direction information, and thus produces emitted voice signals SS1 to SS4 that are supplied to the speakers SP1 to SP4.
  • the voice-emission controlling portion 22 gives a component of the voice-emitting voice signal S1 at a high signal level as the emitted voice signal SS3 for the speaker SP3, and does not give the component of the voice-emitting voice signal S1 to the emitted voice signals SS1, SS2, SS4 for other speakers SP1, SP2, SP4.
  • the voice-emission controlling portion 22 gives the component of the voice-emitting voice signal S2 at the same signal level as the emitted voice signals SS2, SS3 for the speakers SP2, SP3, and does not give the component of the voice-emitting voice signal S2 to the emitted voice signals SS1, SS4 for other speakers SP1, SP4.
  • the voice-emission controlling portion 22 gives a component of the voice-emitting voice signal S1 at a high signal level as the emitted voice signal SS3 for the speaker SP3, and also gives the component of the voice-emitting voice signal S2 at the same signal level as that of the emitted voice signal SS3 as the emitted voice signal SS2 for the speaker SP2. In this case, the voice-emission controlling portion 22 does not give the component of the voice-emitting voice signal S2 to the emitted voice signals SS1, SS4 for other speakers SP1, SP4.
  • the emitted voice signal SS3 being produced by mixing the voice- emitting voice signals S1, S2 at a predetermined signal level ratio and the emitted voice signal SS2 consisting only of the voice-emitting voice signal S2 are produced, and are supplied to the speakers SP3, SP2 respectively.
  • a D/A converter 23 applies a digital-analog conversion to the emitted voice signals SS1 to SS4.
  • a voice emitting amplifier (AMP) 24 amplifies the emitted voice signals SS1 to SS4 at a predetermined amplification factor, and gives the amplified signals to the speakers SP1 to SP4 respectively.
  • the speakers SP1 to SP4 convert the supplied emitted voice signals SS1 to SS4 into the voices, and then emit the voices respectively.
  • the voices are emitted from respective positions of the voice conference device on the voice emitting side corresponding to the positions of the talkers who attend the voice conference device on the voice collecting side. Therefore, respective conferees who attend the voice conference device on the voice emitting side can feel as if the talkers who attend the voice conference device on the voice collecting side are attending the voice conference device on the voice emitting side and are talking now. As a result, the remote session with an unbounded feeling of presence can be held.
  • FIG.4 is a view explaining a voice emitting/collecting state when conferees 201A, 203A, 202B, 204B talk to each other in a situation shown in FIG.1 respectively.
  • a voice 301A is picked up by the voice conference device 1A.
  • the voice 301A is picked up mainly by the microphones MC8, MC9, MC10 and therefore the voice collecting beam signal composed of the voice collecting signals from these microphones MC8, MC9, MC10 is in excess of the predetermined threshold value.
  • a voice 303A is picked up by the voice conference device 1A.
  • the voice 303A is picked up mainly by the microphones MC16, MC1, MC2 and therefore the voice collecting beam signal composed of the voice collecting signals from these microphones MC16, MC1, MC2 is in excess of the predetermined threshold value.
  • the voice communication data are constructed by time-dividing the voice collecting beam signals produced based upon these voices, as described above.
  • the conferees 202B, 204B who are seated in the session room 100B can hear the emitted voices from sound sources in positions corresponding to the positions of the conferees 201A, 203A who are seated in the remote session room 100A.
  • a voice 302B is picked up by the voice conference device 1B.
  • the voice 302B is picked up mainly by the microphones MC12, MC13, MC14 and therefore the voice collecting beam signal composed of the voice collecting signals from these microphones MC12, MC13, MC14 is in excess of the predetermined threshold value.
  • a voice 304B is picked up by the voice conference device 1B.
  • the voice 304B is picked up mainly by the microphones MC4, MC5, MC6 and therefore the voice collecting beam signal composed of the voice collecting signals from these microphones MC4, MC5, MC6 is in excess of the predetermined threshold value.
  • the voice communication data are constructed by time-dividing the voice collecting beam signals produced based upon these voices, as described above.
  • the conferees 201A, 203A who are seated in the session room 100A can hear the emitted voices from sound sources in positions corresponding to the positions of the conferees 202B, 204B who are seated in the remote session room 100B.
  • the talking voices are emitted in response to the positions of respective conferees in the voice conference devices 1A, 1B.
  • all conferees who are seated in two session rooms 100A, 100B can attend the talk session with an unbounded feeling of presence.
  • FIG.5 is a view explaining a voice emitting/ collecting situation when the conferee moved to change the position.
  • a voice 311A of the conferee 201A after movement is picked up mainly by the microphones MC10, MC11, MC12 in the voice conference device 1A. Therefore, the voice collecting beam signal composed of the voice collecting signals from these microphones MC10, MC11, MC12 is in excess of the predetermined threshold value.
  • FIG.6 is a view explaining a talk session situation when four conferees are seated in the session rooms 100A, 100B according to a second embodiment of the present invention respectively.
  • a configuration of the voice conference device is similar to that in the first embodiment, and therefore its explanation will be omitted herein.
  • the voice 301A of the conferee 201A being picked up by the voice conference device 1A is emitted from the speaker SP1 of the voice conference device 1B as an emitted voice 401 B that is directed from the voice conference device 1B to the conferee 201B.
  • a voice 302A of the conferee 202A being picked up by the voice conference device 1A is emitted from the speaker SP2 of the voice conference device 1 B as the emitted voice 402B that is directed from the voice conference device 1B to the conferee 202B.
  • the voice 303A of the conferee 203A being picked up by the voice conference device 1A is emitted from the speaker SP3 of the voice conference device 1B as an emitted voice 403B that is directed from the voice conference device 1B to the conferee 203B.
  • a voice 304A of the conferee 204A being picked up by the voice conference device 1A is emitted from the speaker SP4 of the voice conference device 1B as the emitted voice 404B that is directed from the voice conference device 1B to the conferee 204B.
  • the voice conference devices 1A, 1B are shaped like the circular plate respectively, and the speakers SP1 to SP4 are arranged at an interval of 90 ° along the circumferential surface and emit the voice outward from the side surface of the unit respectively. Accordingly, the conferee 201B can only hear the voice of the conferee 201A exclusively, the conferee 202B can only hear the voice of the conferee 202A exclusively, the conferee 203B can only hear the voice of the conferee 203A exclusively, and the conferee 204B can only hear the voice of the conferee 204A exclusively. As a result, the conferees can discuss four subjects simultaneously in parallel by using two voice conference devices 1A, 1B only.
  • the conferees who are going to talk to each other must be seated in the same direction with respect to the voice conference devices 1A, 1 B respectively.
  • a seating chart may be prepared in advance, and the conferees may be seated in accordance with the seating chart.
  • four conferees may be seated in advance at one voice conference device and may say their own names, and then four conferees may be seated at the other voice conference device sequentially in accordance with the said name.
  • a voice emitting direction changing mode may be prepared in advance in the voice conference devices 1A, 1B, and first the conferees may be seated at both voice conference devices respectively and then their voice emitting directions may be changed.
  • the voice collecting direction and the voice emitting direction are set to coincide with each other as described above whereas, in the voice emitting direction changing mode, the voice collecting direction and the voice emitting direction may be set in any combinations.
  • these combinations may be stored previously, then the combinations may be displayed on a liquid crystal display of the operating portion 13, and then a desired combination may be selected by the operating portion 13. As a result, the combination of voice emission and collection can be set more easily.
  • the voice conference devices 1A, 1B transmit/receive the voice communication data via the network communication.
  • the voice signals may be transmitted/received via parallel communication.
  • FIG.7 is a block diagram showing a configuration of a voice conference device 1' that transmits/receives the voice signal via parallel communication.
  • An input/output I/F 14' of the voice conference device 1' is connected to a parallel transmission line that has four line on the input side and the output side respectively.
  • the input/output I/F 14' receives the emitted voice signals SS1 to SS4 being input in parallel, and gives these signals to a communication controlling portion 21'.
  • the communication controlling portion 21' gives the input emitted voice signals SS1 to SS4 to the speakers SP1 to SP4 via an echo canceling portion 29', the D/A converters 23, and the voice emitting amplifiers 24.
  • the speakers SP1 to SP4 convert the supplied emitted voice signals SS1 to SS4 into the voices, and emit the voice respectively.
  • the microphones MC1 to MC16, the voice collecting amplifiers 25, the A/D converters 26, the voice collecting beam generating portion 27, and the voice collecting beam selecting portion 28 of the voice conference device 1' are similar to those shown in the first embodiment. Therefore, their explanation will be omitted herein.
  • the echo canceling portion 29' produces the quasi regression voice signals based on the emitted voice signals SS1 to SS4 with respect to the selected voice collecting beam signals MBS1 to MBS4, and then subtracts the quasi regression voice signals from the selected voice collecting beam signals MBS1 to MBS4.
  • the echo canceling portion 29' can suppress effectively the go-around voices.
  • the communication controlling portion 21' produces the emitted voice signals SS1 to SS4 from the selected voice collecting beam signals MBS1 to MBS4, from which the regression voice is removed, and the voice collecting direction information every destination speaker by using the above mixing process, etc., and then transmits these signals to the destination voice conference devices via four lines of the input/ output I/F 14' on the output side.
EP07791752A 2006-08-01 2007-08-01 Videokonferenzsystem Withdrawn EP2059064A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2006210054A JP4867516B2 (ja) 2006-08-01 2006-08-01 音声会議システム
PCT/JP2007/065072 WO2008016080A1 (fr) 2006-08-01 2007-08-01 système de conférence vocale

Publications (1)

Publication Number Publication Date
EP2059064A1 true EP2059064A1 (de) 2009-05-13

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP07791752A Withdrawn EP2059064A1 (de) 2006-08-01 2007-08-01 Videokonferenzsystem

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US (1) US8462976B2 (de)
EP (1) EP2059064A1 (de)
JP (1) JP4867516B2 (de)
CN (1) CN101496417A (de)
WO (1) WO2008016080A1 (de)

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US20100002899A1 (en) 2010-01-07
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US8462976B2 (en) 2013-06-11
CN101496417A (zh) 2009-07-29

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